On the Mass and Width of the Z-boson and Other Relativistic Quasistable Particles

Abstract

The ambiguity in the definition for the mass and width of relativistic resonances is discussed, in particular for the case of the Z-boson. This ambiguity can be removed by requiring that a resonance's width (defined by a Breit-Wigner lineshape) and lifetime τ (defined by the exponential law) always and exactly fulfill the relation = /τ. To justify this one needs relativistic Gamow vectors which in turn define the resonance's mass MR as the real part of the square root ResR of the S-matrix pole position sR. For the Z-boson this means that MR ≈ MZ - 26MeV and R ≈ Z-1.2MeV where MZ and Z are the values reported in the particle data tables.

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